Acids can be used to determine the concentration of a given alkaline solution. Acids can be used to dissolve solids that do not dissolve in water. Abides are used to identify certain substances, such as in cation precipitation.
Acids.
Generally not. The general rule to go by is like dissolves like. Polar substance will dissolve other polar substances while nonpolar substances will dissolve other nonpolar substances.
Many different substances dissolve easily in water, but there are some which don't, particularly oily substances. Soap makes these substances dissolve in water.
Yes
Acids can be used to determine the concentration of a given alkaline solution. Acids can be used to dissolve solids that do not dissolve in water. Abides are used to identify certain substances, such as in cation precipitation.
Acids can dissolve substances through a chemical reaction. Increasing the concentration of an acid increases the rate at which it can dissolve other substances, making it more dangerous if touched. Acids can be weakened by diluting them with water, decreasing the potency of the acid and making it safer.
Substances that do not dissolve are insolubles, because they are not soluble they do not dissolve.
Copper is not very reactive. It does not react easily with most substances, including many acids.
They don't dissolve (or more properly, dissociate) completely in water, only partially. Acids or bases that dissociate completely are called strong acids or bases.
The chemistry principal of "like dissolves like," explains that polar substances will dissolve in each other. Similarly, a covalent will dissolve another covalent.
Polar substances dissolve other polar substances, and nonpolar substances dissolve other nonpolar substances. A polar substance cannot dissolve a polar substance and a nonpolar substance cannot dissolve a polar substance.
Acids.
Because it has acids in it. Natural acids, but acids all the same.
food substances to contain nucleic acids
Nutilite's vitamins dissolve in water.
No. Some substances dissolve perfectly and are called homogeneous. Others do not and are called Heterogeneous.